Towards Visual Feature Translation
This addresses the problem of feature reusability for visual search system developers, though it appears incremental as it builds on existing auto-encoder methods.
The paper tackles the inflexibility of visual search systems by enabling feature translation across different systems, proposing a Hybrid Auto-Encoder and Undirected Affinity Measurement that show encouraging possibilities in experiments with sixteen feature types on public datasets.
Most existing visual search systems are deployed based upon fixed kinds of visual features, which prohibits the feature reusing across different systems or when upgrading systems with a new type of feature. Such a setting is obviously inflexible and time/memory consuming, which is indeed mendable if visual features can be "translated" across systems. In this paper, we make the first attempt towards visual feature translation to break through the barrier of using features across different visual search systems. To this end, we propose a Hybrid Auto-Encoder (HAE) to translate visual features, which learns a mapping by minimizing the translation and reconstruction errors. Based upon HAE, an Undirected Affinity Measurement (UAM) is further designed to quantify the affinity among different types of visual features. Extensive experiments have been conducted on several public datasets with sixteen different types of widely-used features in visual search systems. Quantitative results show the encouraging possibilities of feature translation. For the first time, the affinity among widely-used features like SIFT and DELF is reported.